Electrically and magnetically induced transfer of solvated ions in an isolated solution of salt in a polar dielectric

Abstract

Solutions of metal salts in liquid polar dielectrics were considered in the approximation of a single ion placed in a system of liquid polar dielectric molecules and a system of interacting charged particles, such as cations, anions, and polarized liquid polar dielectric molecules, arranged around them. The sizes of the solvated ion clusters were estimated in the approximation of a single ion and in the approximation of the existence of a self-consistent field in the solution volume. The characteristic frequencies of the external electric field were determined so that, being imposed on an aqueous salt solution, it produces the effect of the induced transfer of solvated ions. The behavior of the solutions under the action of external asymmetric electrical and alternating magnetic fields was analyzed.

Original language	English
Pages (from-to)	58-66
Number of pages	9
Journal	Theoretical Foundations of Chemical Engineering
Volume	44
Issue number	1
DOIs	https://doi.org/10.1134/S0040579510010082
Publication status	Published - 1 Feb 2010

ASJC Scopus subject areas

Chemistry(all)
Chemical Engineering(all)

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Electrically and magnetically induced transfer of solvated ions in an isolated solution of salt in a polar dielectric. / Kazaryan, M. A.; Shamanin, I. V.; Lomov, I. V.; Dolgopolov, S. Yu; D'Yachenko, A. N.; Lobanov, A. N.; Murav'Ev, E. N.

In: Theoretical Foundations of Chemical Engineering, Vol. 44, No. 1, 01.02.2010, p. 58-66.

Research output: Contribution to journal › Article › peer-review

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abstract = "Solutions of metal salts in liquid polar dielectrics were considered in the approximation of a single ion placed in a system of liquid polar dielectric molecules and a system of interacting charged particles, such as cations, anions, and polarized liquid polar dielectric molecules, arranged around them. The sizes of the solvated ion clusters were estimated in the approximation of a single ion and in the approximation of the existence of a self-consistent field in the solution volume. The characteristic frequencies of the external electric field were determined so that, being imposed on an aqueous salt solution, it produces the effect of the induced transfer of solvated ions. The behavior of the solutions under the action of external asymmetric electrical and alternating magnetic fields was analyzed.",

author = "Kazaryan, {M. A.} and Shamanin, {I. V.} and Lomov, {I. V.} and Dolgopolov, {S. Yu} and D'Yachenko, {A. N.} and Lobanov, {A. N.} and Murav'Ev, {E. N.}",

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AU - Kazaryan, M. A.

AU - Shamanin, I. V.

AU - Lomov, I. V.

AU - Dolgopolov, S. Yu

AU - D'Yachenko, A. N.

AU - Lobanov, A. N.

AU - Murav'Ev, E. N.

PY - 2010/2/1

Y1 - 2010/2/1

N2 - Solutions of metal salts in liquid polar dielectrics were considered in the approximation of a single ion placed in a system of liquid polar dielectric molecules and a system of interacting charged particles, such as cations, anions, and polarized liquid polar dielectric molecules, arranged around them. The sizes of the solvated ion clusters were estimated in the approximation of a single ion and in the approximation of the existence of a self-consistent field in the solution volume. The characteristic frequencies of the external electric field were determined so that, being imposed on an aqueous salt solution, it produces the effect of the induced transfer of solvated ions. The behavior of the solutions under the action of external asymmetric electrical and alternating magnetic fields was analyzed.

AB - Solutions of metal salts in liquid polar dielectrics were considered in the approximation of a single ion placed in a system of liquid polar dielectric molecules and a system of interacting charged particles, such as cations, anions, and polarized liquid polar dielectric molecules, arranged around them. The sizes of the solvated ion clusters were estimated in the approximation of a single ion and in the approximation of the existence of a self-consistent field in the solution volume. The characteristic frequencies of the external electric field were determined so that, being imposed on an aqueous salt solution, it produces the effect of the induced transfer of solvated ions. The behavior of the solutions under the action of external asymmetric electrical and alternating magnetic fields was analyzed.

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Electrically and magnetically induced transfer of solvated ions in an isolated solution of salt in a polar dielectric

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